Machine for stuffing newspapers or similar sheet material assemblages



April 14, 1953 P. SCHWEIZER 2,534,971

MACHINE FOR sTuFFING NEWSPAPER 0R SIMILAR SHEET MATERIAL ASSEMBLAGES Filed Aug. 6, 1949 8 Sheets-Sheet l BY Nahum, Kwfflj 5 CavwdpM/ ATTORNEY S.'

8 Sheets-Sheet 2 INVENTOR:

BY SRM/ub m. at C b Il AllzN/s.

Kms

P. SCHWEIZER MACHINE FoR STUEEING NEWSPAPER oR SIMILAR SHEET MATERIAL ASSEMBLAGES April 14, 1953 Flled Aug 6, 1949 Aprll 14, 1953 P. SCHWEIZER 2,634,971

. MACHINE FOR STUFFING NEWSPAPER 0R SIMILAR SHEET MATERIAL. ASSEMBLAGES Fild Aug. 6, 1949 8 Sheets-Sheet 5 I /ff' 23. hifi/2f ze M2 INVENTORI BY moa/um) @han April 14, 1953 P. SCHWEIZER MACHINE FOR STUFFING NEWSPAPER OR SIMILAR SHEET MATERIAL ASSEMBLAGES 8 Sheets-Sheel'l 4 Filed Aug. 6, 1949 INVENTOR:

BY-Cmm ATTORNEYS.

April 14, 1953 P. SCHWEIZER MACHINE FOR STUFFING NEWSPAPER OR SIMILAR SHEET MATERIAL ASSEMBLAGES 8 Sheets-Sheet 5 Filed Aug. 6, 1949 ,Ilm

INVENTOR!l BY )'R/vwmv) K wub/d5 y Mbs/ ATTORNEYS.

Apnl 14, 1953 P. SCHWEIZER 2,634,971

MACHINE FOR STUEFING NEWSPAPER 0R SIMILAR SHEET MATERIAL AssEMBLAGEs Filed Aug. e. 1949 s sheets-sheet e 154 mf ai@ INVENTOR: 330 "p 2 Se BYWM) Kms@ (CwtaYa-s/ ATTORNEYS April 14, 1953 P. SCHWEIZER MACHINE FoR sTuFEING NEWSPAPER oR SIMILAR SHEET MATERIAL AssEMBLAGEs 8 Sheets-Sheet '7 Filed Aug. e. 1949 www F9 nbmwww-- muuu IIIHHHHHUUHHUUIIIIIIIJ. ...I E# w uw .v T-L\ mi A I w April 14, 1953 P. scHwElzER 2,634,971

MACHINE FOR STUFFING NEWSPAPER OR SIMILAR SHEET MATERIAL ASSEMBLAGES 8 Sheets-Sheetl 8 Filed Aug. 6, 1949 Pom@ Sekgruy/z. BY )T7 Kiwa/K 3( C cva/9Com) MMU ATTORNEYS.

Patented Apr. 14, i953 ["VUNITED STATES PATENT i OFFICE "i H MACHINE FOR STUFFING NEWSPAPERS OR SIMILAR SHEET MATERIAL ASSEMBLAGESV Paul Schweizer, Easton, Pa., assignor to T. W. & O. B. Sheridan Company, New York, N. Y., a corporation of New York This invention relates to machines for stuiflng newspapers or similar sheet material assemblages; having reference more particularly to y eral principles thereof being long well known,`

andY illustrated for examplev in a prior patent of this applicant, filed April 2, 1945, patented IllebruaryV 15, 1949, No-2,461,5'73, the specification Of'iwhich makesreference to specific earlier disclosures in the art. The present invention may in'general be considered as an improvement upon stufng machines of the type of said prior patent,

the. features of the present invention however be-v ing, applicable to other types of newspaper stuffing machines.

.f The said prior patent may be generally out lined as disclosing in an automatic apparatus certain characteristic cooperating elements describable in the following manner, the wording ofxwhich applies also to the herein illustrated embodiment of the present invention. An endless series of assemblage-conveying upright pockets, 4each. double-acting to close and open -alternately at top and bottom, travels facewise .around a horizontal orbit, so that each topopen pocket can receive edgewise, from successive infeeding means' above, at a first receiving station the jacket and, after such jacket is opened to V-form in the pocket, the further sections, al1 during vpocket travel along a route beneath thesuccessive inieeding means or hoppers; until, atf'a delivery station, each pocket of the series is reversed to release its assembled contents and bylbottom-openingjto discharge and drop the assemblage, to be delivered to and received by an operative outfeeding mechanism which carries laway in procession the completed products.

Each pocket has a pair of upstanding walls, front and rear, initially in V-form or relation, but iitted for relative wall swinging to close and open the pocket above .and wall tilting to open and close the pocket below. A driven rotor is used as an effective .means of advancing the pockets around their endless path, with continuous travel and output; each pocket standing radially and thus traveling facewise, in the form of complementary or oppnsedv leadingand trailing walls, around the rotorperiphery. Thus the mechanismsware coordinated as to the pocket travel, and the opening and closing actions and the injfueedingL-discharging and outfeeding functions;

Application August 6, 1949, Serial No. 109,038

y 25 Claims. (Cl..27055) such coordination including operations such that after each top-open pocket receives its jacket,

with fold down, and while it travels ahead, its

swinging Wall, which preferably is its trailing wall, is-operated to approach its other Wall until it closes the jacket and then to swing away toA reopen the pocket to cause the opening of the jacket to V-form with one half of the jacketV a 10W axis near the line of wall intersection.V

After next receiving the inner sections deposited within the jacket each pocket finally reaches the delivery station, whereat one of the pocket walls,

preferably the rear or trailing wall, tilts about a. high or mid axis thus to open the pocket belowv and release each completed assemblage for discharge, further action and nal outfeed.

The general objects of the present invention are to improve the operation and efficiency of the known prior art including the stufiing machin-e disclosed in said Patent 2,461,573, which is believed to be the prior instance nearest to the present invention; and to provide automatic stuing apparatus possessing superior simplicity and ruggedness, along with good working qualities and reliability in action. Additional general objects are to afford an increase in the rate of output and to avoid certain inconveniences and other drawbacks pertaining to the prior art.

A special object of the present improvement is to increase efficiency and certainty of action in the feeding into and receiving of sections byl each of the successive traveling pockets, and there adjusting them for correct assembling before discharge. Another-special object is to im-` later delivering and advancing the assemblage toward the outfeeding means, this object beingv accomplished by changes of structure and action v including a novel cam means lacting tocontrol the pocket openings and closings produced by reason of the travel of the pockets around the continuous orbit.

Another important aim and advantage over the prior machine relates to the transfer of the successive delivered assemblages from the traveling pockets to the outfeeding means, this referring to an intermediate driven mechanism, preferably rotary, arranged below the pocket path of vtravel`v and operating to manipulate and conduct down-T wardlythe successive released assemblages, at the del1very station, and therebelow easing and depositing .the successive assemblages methodi- .l cally uponV an outgoing conveying web or outfeed' carrier. In association with such purposes the present invention embodies a counting or'assemblage arranging or disposing mechanism, driven from or with the transfer means; this mechanism being constructed and arranged to afford regular displacement or lateral adjustmentV of periodic.

ones of the assemblages, such asA every tenthone; this being an action in the nature of thrusting or kicking out of the traveling line. such periodic assemblages, in order to mark off in the procession thereof a series of uniform batches or groups, as of ten each, to thegreat. convenience of the operatives in the manual or automatic performance by which these assemblages thus segregated or subdivided into groups are piled or methodically transported away forsale or other disposition. For this displacing or thrusting action it is an object to provide an adjustable con-v trolling trip means, timed with the delivery rate and magnetically controlled; the products beingl delivered to the conveyor in the direction of out feed, to overlie each other, each' periodic one being thrust into a visibly out-of-line position.

Certain minor devices are desirable to insure properaction upon each jacket; one of these being'` ay driven wiper device to bend the jacket corner over to the' suction device, thus dispensing withthe bent ear |90 shown in said patent formed on-the trailing wall. Another jacket positloning device, supplemental to thersuction de-V vice,- and cooperative with thefwiper device, is a curved finger or overreaching hook mounted at the topoff the leading wall and automatically swung to holdV or'clamp thelleadi'ng half of the jacketlt'o the leadingwall, making sure that the inner sections are subsequentlyreceived correctly within. th'e'jacket, unti1 the quota is complete and the delivery station is reached".

It is a further object to provideV a device or guide for each pocket which serves to preventA operates-.with the section adjusting or aligning means already. mentioned.v

Other: and further." objects and advantages will be: explained in the following description of an illustrative embodimentorwill be understood by those conversant with the subject. To the attain*- ment of such objectszand-advantages the presentA invention.. consists in the novel stuiiing machinek andthe novel features of operation, combination, arrangement, mechanism and detail herein illustratedor described..

Inv the. accompanyingv drawingsl contained on eight sheets, there is disclosed-an illustrative embodiment of the present invention wherein th figures ,are'described as follows.:`

Sheet1.,-Eig..1 is;asgeneral topl plan' view on'a` small scale, .corresponding to Fig. 1' of saidprior- Patent No. 2,461,573; andn illustrating avistuiiing machine. embodying the featuresI ofV improve--v ment. over. said prior patent and. showing thegeneral arrangement ofthe frame and the mech--l anismsof themachindthemode of drive ofthe assemblage-conveying. rotor and. other rotating parts,.the hoppersand associated infeed means fonnewspaper sections,A and the means for. out-L feeding the stuffed newspaper assemblages. Fig. 2', onv the same scale, is a front elevation of the machine of Fig. 1 partly in" general' vertical section and partly broken away to show interior parts, and corresponding to Fig. 2 of the patent.

Sheet 2.-Fig. 3, on an enlarged scale, is a vertical section taken oni the radial line 3-3 of Fig. 1, corresponding With a portion of Fig. 5 in said prior patent,.but'1ooking from the rear, showing the infeed and a pocket.

Sheet 3;-Fig. 4 is an enlarged top view of parts of.` the pocket operating and controlling mechanism; while Fig. 5 is an exterior elevation of the same, that is, looking radially inwardly toward the general center or axis of the machine, and with-some parts broken away.'

Sheet 4.-Fig; 6 is an exterior elevationandl part section 4showing Athe-lower parts -of 'successivei pockets. and therebelow-v the.operating.,- means foi" the discharge .of each. assemblage from its. pocket'.

to'. the delivery mechanism, for transfer toi. thef outfeeding carrier'or belt; the flgureibei'ng brokenl away to. show.A parts beyond. Fig. 7.,. on the same?- scale,. shows.v inA exterior fronti elevation'r the= aligning.; inA the. pocket the; successive@` sections, asi

deposited therein so. that. each assemblage. Willi have` been'A neatly: groupedA fori delivery: and'. outfeed. Fig. l0 is an .exterior elevation. of thesam'e..

parts, showing a re-design of the. pocket; front. end lever as comparedwiththat of-'Eigl Fig.111 is a sectional View' taken. on the; section line. H--I I'of Fig. 10. Fig. l2;is. an. explanatory ele' vation on which alongv withFig; 1'0 showsthe. nature of aninfeedA defect that occursoccasione ally by reason. of theA blocking and conseguenti tilting or cockingof the. outerendiof abd'esrzende.Y ing section, which defect; is-more readily observe: able by reason of the aligning of` thetsectionsiinthe` pocket andis correctable byyhand or device..

,Sheet` 6.-Fig. 13V is a top plan view,;.partly. section on-the line ltr-43. of Fig. 1.6,.of partszotl' the tripping means through which;Y at. regular; counted intervals, the', kicker mechanism. is; brought. into play to. kick. orrdisplace.laterally' af periodic one of the sequence.zorrprocession.croute-r feeding assemblages. Fig. 1l-isa.top plan.; viewf of details of the counting or indexingmechanism which controls theftiming of, theirippingmechs. anisrn, with means. for predeterrniningn the; interi-- vals of` displacement of delivered assembia;ges.,.v and Fig. 15 is an elevation yof thesame.

Sheetf-Fig 16 is aV general elevation-10i ceratain lowerv parts of the machine;attherdeliveryz position, and. looking laterally to ageneral radius; showing one pocket and parts of thev delivery mechanism and of the counting,v tripping and'. kicking or assemblage-displacing mechanismas sociated therewith.

Sheet 8.--Fig. 17. is a detached verticalv section showing a suction device' and other elements taking part in the' opening of each jacket" sec# tion, including an automatic.section-bending or' wiping device to 'operate on the jacket, this gure corresponding withFig. 11 of' said prior patent. Fig. 18; is4 anxextensiveexterior elevational view pocket positions 2, 3 and 4, and nally positionl 1- repeated, in each of these cases the developed view being taken looking radially inwardly, and with the pocket operating xed cams I I8 and 22B indicated-in positions 2 and 4. Fig. 19 shows a newspaper jacket section in perspective view.

- Various general and detail matters of disclosure follow basically said prior patent, wherefore they will usually be omitted from this specification, leaving it to cross-reference to the patent to supply the omitted parts. Mechanical elements and partsare designated by reference numbers, but` for convenience lettering is used for the newspaper component parts and complete assemblage. Fig. 19 herein shows separately a complete jacket section A, and this and inner sections B appear in various figures wherein thesections areacted upon; and when the jacket has been fully supplied or stuffed with inner sections this assemblage is designated C. The jacket has its parts designated by'letters, whichis not necessarywith the inner sections that require nosuch special handling as does the jacket or cover. The latter has its closed lower edge A', which is really the nal refold, made after the section has been completed. It rests edgewise in the open V-pocket into which it is fed. The jacket has the openable upper edge A2, at which the upper portions of the deposited section meet, this edge A2 being closed during infeed but later becoming opened into V-form to receive the inner sections. The two halves of each jacket as folded are referred to as the leading half A3 and the trailing half yA4. since these parts advance facewise as the radially arranged pockets travel clockwise with the conveying members of the machine. The so-called backfold A5 consists of the full length of the back edge of the jacket prior to the refolding of the section about its lower closed edge A. This backfold A5, as explained in said patent, must be at the radially outer part of the edgewise-f deposited jacket section. This section has to be opened in V-form in the pocket, ybefore inner sections are deposited, and for this operation an upper corner A6 lis utilized, being a small area adjacent to the backfold A5 and near the upper edge of the leading jacket half, as marked in Fig. 19. By mechanical and/or suction means as seen in Fig. 17 this important corner A6 is held againsta corresponding corner 96 of the leading wall of the pocket, while the trailing half of the section swings away to create the receiving space for the inner sections. Forseparating from each lsupply, and feeding newspaper sections into the successivepockets 89;*which are shown of V-type eachwitha leading wall 90 and a trailing wall 9|, a hopper 20 is provided,'which may be conventional, positioned above each infeeding station around the orbital path of travel, the sections preferably standing edgewise and in succession being de' tached, extracted and guided downwardly into' the respective pockets; the jacket section being rst supplied to each pocket and therein opened into V-shape to receive the inner sections. Each hopper has'a bottomvwall 2l and thereabove a" front Wall 22, 4with a gap between them for the extraction ofthe sections. A sucker device conventionally swings frontwardly the lower edge of each section which thereupon is engaged by a gripper 32 carried on an extracting drum 25 shown as an open structure of several disks rotatable near the hopper exit. A driven shaft 26 carries the drum and turns in bearings 26 carried by hangers 28 supported by an overhead pair of radial frame rods 29 each supported in turn by a tall standard 3U. When each section is released by an outfeeding gripper it is directed by a chute 39 into the top-open pocket 89 beneath, traveling in time with the extraction and deposit of the sections.

At its inner end each drum shaft 26 carries a pinion 3l through which the shaft is gear-driven as from a large upper ring gear 12 mounted atop a circular series of standards or brackets 'Il up standing from the large rotor or carriage 5l on which the radial pockets 89 are mounted. A second ring gear 18, at the rotor lower part, see

Figs, 1, 2 and 3, conveys the drive to the rotor. j

A pinion 'I9 meshes with gear 18 and is fast on a radial drive shaft turning in a bearing 8| diate transmitting or delivery means to be dee' scribed which p-laces or deposits them overlappingly upon a general outfeeding conveyor I2I, as an endless belt or bands, passing around guide pulleys or rollers |22, with a tensioning takeup E23. i

The general frame of the machine comprises.-v

certain rnain parts and various extensions toA be described. There is shown an elevated central member or headframe 40, which is open above:

and below and is provided with an upper rim 4l formed with flat sides, in this case twelve ,in

number, eight of these giving support tothe inner ends of the radial frame rods 29 already mentioned, which give support to the drum shaft bearings 26. The headframe has downwardly sloping side braces42 interconnecting the upper.

rim ci with a 12-sided flanged bottom member 43, braced by webs 44.

This headframe 40 is mounted atop a central stationary post 45, which also constitutes a vertical axle for the rotor hollow hub 52 consistingof connected inner and outer concentric walls forming the central portion of the rotor 5l. At its top end the post 45 has a shoulder upon which the lbottom member 43 of the headframe is clamped as by a threaded nut. '.Below, theA up'- right axle 45 is set down into a foot member or short upright socket 49 bolted down upon the general base 50, upon which the tallstandards 30 and other xed parts also are supported.

In thev rotor, outwards of its hollow hub 52 are further hollow members 60 building the rotor outwardly, as a system of expanding sectors, to where at the rotor periphery the pockets 89 are mounted, all as more fully shown in said patent. The rotor thus is built up from its centralhollow hub! by concentric series of hollow vstructural` members 60.1,. the whole acting as a carriage rotating to. advance each Aof the. pockets facewise around the orbit of travel, the outer two 'of the hollow .rotor components. 6ll1beingshown in; Fig. 3, which also indicates. the radial 'and the trans-l verseA webs constituting the :sectors ofthe rotor. Itis sunicient to 4designate'the-.outermost or circumferential 'crossvweb .or rim wall 65, which carries 'the radially outward projecting relatively 4Iiked parts vtilthat .constitute the bases of the.` system of pockets.. As a detail of structure each length ci. peripheral wall 65 is formed with a boss fwhich is. hollow or rbored to receive certainparts of fthe :pocket-supports, there beingv one boss for each pocket. At .apoint approximately halfway betweenithe .hollow rotor hub d2 and the rim Wall 55 ri's 'provideda 4shelf 6.9, extending clear around. `.the upper side .of the rotor and upon which are secured the .several vopstanding brackets .'H which at their upper-ends carry the ring .gear 12 .as .already described.`

In order to steady .therotation of the. .rotor or pocket rconveyor I it is provided. with a rolling. support. :meansl near its periphery. Thus a large wear `ring. T5 .is attachedbeneath. the peripheral rotor wall t5.; this ring resting .upona system ofv several .supporting .rollers 'i5 mounted at the top of Short brackets '16 attached .to .the machine base 50.. As thus .stabilized/.the rotor may be power-driven. from. the `drive motor 8.5 by the train of elementszzzi to 16 as already described.

TheV many pockets are. .secured radially to `the periphery of. rotor 5I, thatV is, .substantially at right .angles .to the .direction tof travel or .radial to the.generalaxistofthe rotor.. For each pocket is provided a pocket base member 8S outstanding from .the rotonrim, .shown :as 'a .rod fastened :in the rotor boss .661 provided 'on the rotor rim 65. Thustheremay be sixty of these radial brackets or rods' 88'.. each. giving support to one or" the pockets 89, the rod serving as an .axle for certain pocket movements.. Each .pocket comprises .essentially its upright leading wall S fixed to the base rod' .and the trailing. wall '9| vswingable to and from the leading' wall LforV the top opening and closing of `the pocket, and :as well tiltable on its carrying lever EM for the .bottom opening and closing .of the pocket'. In initial position each pocket, ready to receive a jacket, is closed aty its bottom near the base rod. 83 but vis open atfthe. top, providing' the pocket Vspace tor receive. nrst the jacket .and .later 'the inner sections. Fig.Y 18 indicates the .cycle .of pocket wall movements the .handling of the sections .for each assemblage. Following :the depositof the jacket, the trailing wall is first swung upward 4to the leading wall initiallyto bring the vjacket `to its upright position, whereatzits. leading half is held while its'v trailingV half. is swung away with .the trailing wall, leaving the jacket' space open to. receive the remaining sections; beyond which one of the pocket'. walls', preferably the. trailing one, isy tilted .for the bottom opening of the pocket, this operating .at the outfeeding position and re.- leasingthe assemblage to drop orl dump to the. delivery and other devices'V below. In effect the. trailing Vwall has 4a double-jointed mounting, affording the. necessary bodily swinging movements, about a low axis, and the tilting movements, about a middle axis, effected in proper sequence -by means such as fixed cam-s operating by reason -oi the advancing travel of the series of pockets, as shown and Amore fully described '1n gai-d patent. In Fig. 3 the pocket -89 is advancing away' from the observen-thel leadlng'wall t" in nearly upright position on the base rod 88, butv with preferably a slight backward slant, rfacilitating the falling awayof the jacket trailing half when the trailing wall is swung away for .the openingrof the jacket. The upstanding leading wall isformed with a bent foot portion 93 `composed yof. several tabs between cutaway portions, the 'tabs being secured to the base rod and the cutaway' portions forming recesses for the accommodating of complementary tabs 99 formed alongthe lower edge of the trailing wall. At

its upper inner portion each leading Wall formed with .an outwardly extended 'triangular corner area '94., Fig. 3, Vtaperingdownwardly to the upright edge of the Wall, the slanted edge thus formed having a flange for the mountingy of an inclined guide strip or band 95 extending entirely around the rotor and attached to all of the leading walls 95); this both steadying the pockets and by its slope assisting the proper guiding downwardly of the newspaper sections into the pockets. The upright -wall 90 also is constructed to take partin the openingfof the jacket section, for which purpose its upper margin 96 is vbent over in the direction of travel, laway from the pocket interior,v to about 60, thus providing an` inclined triangular area over which one halt or the jacket section may be bent. The bend line -for the top margin 96 is shown commencing at the upper inner corner of the wall et, slantingoutwardly and downwardly as shown,

that when the latter wall closed againstI the former the jacket upper edge was forced upon the triangular area 96 of the leading wall, andy within reach of the suction hole 97 so that 'suction could hold the leading half and vallow the trailing half of the jacket to return with the trailing wall. An improvement thereon is herein disclosed particularly in Figs. 3, 17 .and '18. A wiper device 200 is Provided, at a fixed position on the pat-h of the pocket travel, near .position 2, the device acting while the pocketis topclosed, sov that when it again opens thel deviceA will have brought the upper portion of the lead.-

ing Vhalf of the jacket' within the influence vof the. suction applied at the hole el formed Ain the bentarea 9E of the leading wall.. The device 200 is mounted upon a shaft 253i, which maybe constantly' driven in such time that it will operate as described. On the hub of' the .device are a plurality of `wiping means preferably in the: form of resilient strips, herein termed brushes. The direction of rotation is clockwiseV as seen vin Figs. 1/'7 and 18 and one Aof the brushes, acting upon the ventire thicknessv .of the jacket, applies `the forcible wiping action, before 'the trailing wall has 4rec'eded, so that the suction, by that time applied through the Fig. 1.7 device, will hold the leading half but release the trailing half of the jacket. The trailing half 'may fall away from its brushed position by'gravi-ty, which may be aided by a :mechanical means. .Before each pocket passes beyond reach of the wiper device the jacket has become secured its full opened.

9, condition, which remains in effect until all of the inner sections have been deposited within the jacket or until the pocket reaches the delivery position.

As explained, each pocket has to be double acting, so that while initially open at top and closed at bottom it may then be closed at top followed by opening at top, these motions to open up the jacket section, while at a later stage the top-open pocket is shifted so as to open at the bottom and thereafter; close at the bottom in readiness for a new cycle. lAs in said prior patent the top opening and closing are by swinging about a low axis, an oscillating frame or wall-carrier being used for this purpose, upon which frame in turn the trailing wall is pivoted about midway of its height to receive tilting movements for the bottom opening and closing, about a vhorizontal axis, which may be parallel to the rod or axle 88; and these swinging and tilting actions of the trailing wall are brought about by timed means operated by reason of the travel of the respective pockets around the general orbit. Herein, however, the means and mechanisms affording these functions are reorganized in a way to secure simpler and more eicient operations and results. The present mechanism is best seen in Figs. 3, 4, 5, 16 and 18.

The swinging frame `204 which carries v the trailing wall 9| of each pocket, while allowing its tilting, is shown as a built up carrier swingable about the low base rod-88 which is fixed on the rotor and actsas an axlev for the swing. 1 For rigidity -there is a higher rod or frame member 205 parallel to 88 and connected tightly to inner and outer arms or radial bars 206 and 208, the hubs 201 and 200 of which can turn loosely on the lower axle rod 88. The tilting mounting of the trailing wall 9| on the swinging frame top rod 205 will be described; but rst the actuating connections for swinging the frame for the top opening and closing, this mechanism being similar to that in said patent. Forming a rocklever with arm 206 and hub 201 is an extension drop arm or tail H4 having a follower or cam roller H1 cooperating with a non-traveling actuating means as a fixed cam H8 supported on bracket H9 and timed to swing the carrier 204 as the pocket advances, first to close and then open the pocket. As arranged, gravity may tend to open the pocket, or a spring H5 may be added. Thev low cam H8 is preferably of only short length along the travel line. It affords only the single function of swinging the carrier frame 204. Unlike the prior patent only the higher contours of the cam have the function described, so that the cam does not need to extend entirely around beneath the rotor as in the patent. The tendency of the frame or carrier is to swing reversely to the travel, thus to open the pocket, whereas the cam H8 is to overcome this'tendency, at and near position 2 so as to swing forwardly the frame and close the pocket. When the follower H1 is not engaged upon the elevated contour of cam I I8 means is required to stop and limit the opening swing; and for this purpose the rotor carries, for each pocket, a short upstanding post 2H, its top end having a stop surface to be met by a contact surface on the frame, being shown in the form of an adjustable screw 2I2 preferably projecting from the rear side' of the swinging arm 206 of the frame, all as best shown in Fig. 18.

Comingvto the tilting of the trailing wall 9|, which only occurs after the wall has beenswung from the Fig. l to the Fig. 2 position and back to the Fig. 3 position, the tilting taking care of the bottom-opening of the pocket for delivery of the product and its reclosing, the arrangement may be as follows, referring to Figs. 3 5, 16 and 18. About midway of the height of the wall 9| is an axle 2 |4 affording the tilting movements. On this rockaxle 2M the wall is mounted tightly. to rock with the axle, by means of mounts 2I5 shown in the nature of straps or clamps; and for its oscillation or tilting action the axle 2I4 is extended at its ends and receives bearing in the upper ends of the swinging arms 206 and 208 of the swinging frame 204. The rockaxle is held against longitudinaldisplacement by means of collars 2 I attached at the two lsides of the upper end or head of the arm 206. Thus, by rocking the axle 2id the trailing wall can be tilted from its inclined position No. 3 to its upright position No. 4, causing Vthe dumping of the product, with reverse tilt to initial position 1-. To rock thus the axle 2id, and wall 9i the axle is provided with anA upwardly extending rockarm 2l1 which may stand at an initial slant of about 45, as seen at position 1 but which may be swung down considerably further as in position 4, under timed action, preferablyvby a fixed cam. At its outer or free end, for this purpose, the rockarm 2I1 is shown as carrying a cam follower or roll 2I'8', which normally is'unengaged, but which when the-tilting action is. to occur' becomesengaged, by the travel ofthe pocket, with the underside ofl a i'lxed cam 22S-*mounted at the foot of a drop bracket 22| whichgmay be an extension `of the hangers 28 at the deliverystation of the machine as 'seen in Fig.- 3. As seen in Fig. 5 the cam has an underneath slanting surface 222 followed by a dwell 223, the cam being so positioned that as each pocket travels its rockarm 2I1 presents its roller ZIB to the inclined surface 222 which thus thrusts downwardly the roll and tilts the rockarm and axle counterclockwise, thus tilting the pocket Wall 9| fromits bottom-closed position to its bottom-open position, with a return movement when the follower runs off from the cam contour. In Fig. 5 certain successive positions are shown, which may here be explained to clarify the camming action.

On Fig. 5 these tilting actions are made clear as follows. The full lines show the normal position at top-open condition, the cam roll 2 I 8 being slightly lower than the dotted position occupied when the pocket is top-closed at position 2. At its normal elevation as at position 3 the roll of the advancing pocket is low enough to cut under the entering or first part of the cam down-slant 222, at 2I8a, as marked. The continued travel causes the roll to run down to the full lower level 2I3b, thus rocking the arm 2H and tilting the wall 9| to its dumping position 4. The cam is shown in dotted lines in Fig. 5 because its location there is abstract or diagrammatic, to aid explanation. The cam length may be abridged. with anupslant 2213 following a short dwell, since there is no need to maintain the wall 9| at a tilt after the assemblage has dropped through at delivery.

When the wall 9| has returned to its normal or bottom-closed position 1, a stop is desirable to predetermine such position. For this purpose the collar or hub 2 I6 of the tilting arm 2I1 is formed with a projection or stop lug 225 arranged to meet a stop surface on the swinging frame 204, such stop surface being conveniently the exposed end When, in the course of travel of any pocket, a section fails to be fed into the pocket it is desirable that this may be readily corrected manually in the absence of a workable mechanical means for the purpose. In a short period of time the attendant thereby has the task of setting down into the pocket a duplicate of the missing section. Ordinarily he will place this correctly as regards its true position alongV the radius, but occasionally the manual deposit may be erroneous in setting down the section a little too far out from the center, the guard wall 94, 95 preventing the section being entered too far inwardly. Fig. 12 shows that when the section is deposited too far from the center its outer edge and lower corner may then overlap with and come down upon the metal end parts of the pocket. This is what has happened in Fig. 12 so that the section becomes cocked or takes a slanting posture. In such a case of course the newspaper assemblage will not become discharged correctly fromy the pocket when it is opened at the delivery station.

For general yreasons it is desirable that all of the sections constituting an assemblage be lined up accurately in each pocket, Whatever the cause of disalignment. The mechanism shown in Figs. 9 to 11 is provided to operate against the outer part of each section as received in the pocket, to press the same inwardly to a predetermined position, so that when the full complement Aof sections has been received they stand neatly gathered or stuffed, in readiness for a 'clean discharge and subsequent manipulation between the pocket discharge and the final outfeeding conveyor or belt I2I.

Fig. 9 shows in top plan view several parts from other iigures supplemented by the parts necessary to constitute the aligning mechanism of the device under discussion. Each of Figs. 9, 10 and 11 shows the outer upright frame arm 208 of the swinging frame of a pocket but in these ngures the arm 208 takes a dierent contour and structure, having certain recesses to accommodate parts of the aligning mechanism. Figs. 9 and 10 show the xed base or rod 88 from which extends rigidly the leading pocket wall 50 and around which oscillates the frame 208-205-205. The new parts are associated with the recessed arm 208 which extends between the fixed rod 88 below and the cross rod 285 above. Let it be assumed that successive sections have been fed somewhat irregularly into each pocket, that is, somewhat out of mutual alignment, and requiring re-positioning for the purposes hereoi. Each of the three figures indicates the position of a jacket A and inside of it a section B and Fig. 10 in addition shows at the upper part of a section the cocked position that it mightl take when deposited too far removed from its correct position, although on account of theA inner guard 95 the sections may be expected to be misplaced outwardly and not inwardly from correct positions; and the work ofthe registering mechanism therefore is to thrust inwardly, toward the general vertical axis, each section that has been misplaced outwardly. The illustrated part directly concerned in this action is the registering iinger or aligner 240, having movements toward and from the general center. This aligner part may in a sense be considered as a movable guard, not merely guarding each section from misplacement but operating to thrust each section into a predetermined position, thereby aligning the entire assemblage, section by section; so that when the 14 delivery is reached the sections have al1 been brought into correct registry.

Referring in detail to the section-registering mechanism, the aligning nger 240 is shiftable, preferably swingable, inwardly toward the position of the accumulating sections. Its normal position is within a recess in the inner side of the enlarged frame arm 208, wherein there is provided a stop or set screw 24I to predetermine the retracted position. The finger 240 is shown as fulcrumed on a stud 242 upstanding from the frame arm 208, the finger thus having play between the enclosed full line position and the operating dotted position shown in Fig. 9. The hub 243 of the nger 240 rocks upon the stud 242, and from this hub extends a lateral lug 244 having a socket to receive one end of a spring 245 disposed under compression tending-to rock the hub and retract the nger into its recess. The far end of the spring 245 is shown entered in a socket formed in an -abutment 246 provided at the outer side of the frame arm 208. By these arrangements the registering iinger remains always retracted except at those times when a force is applied to Swing inwardly the nger, for the registering in the pocket of each section as received therein.

The actuation of the registering linger 240 is shown performed by means of mechanical connections cam-operated. On the same hub 243 of the finger there extends outwardly a cam arm 241 and at the extremity thereof is shown a cam roll 248; these parts being shown in full lines in the retracted position and in dotted lines in the advanced or operating position of the iinger. The described parts must be operated regularly in time with the other motions of the machine including particularly the travel of the pockets and the successive depositing of sections therein. For each section, including the jacket if desired, the registering action is performed at a point of time promptly after the deposit of the section. A satisfactory mode of actuation is to provide a iixed cam `258 cooperable with each cam roll 248, the cam being set in the path of travel of the rolls, and each cam being set at such position along the path of travel that it will Ibe engaged by the cam roll of the registering nger of each pocket. The contour of the cam may be a simple rst incline or wedge surface, to shift the cam roll and connected parts against the resistance of the spring 245, the apex of the cam determining the extent of swing and register, followed by an easy decline to the end of the cam; the parts then remaining under spring control until, as the pocket passes another depositing station a subsequent similar cam is necessary for repeating the registration on the next received newspaper section.

Reviewing the actions of the low and high cams I I8 and 220, these jointly conform with the position numbers 1, 2, 3 and 4 which are indicated on Fig. 18 and as well on Fig. 1. At position 1 the pocket, open at top but closed at bottom, receives the jacket section deposited from above. Neither cam is in effect, the swinging frame and the tilting wall being positioned by their stops 2H and 285. At position 2 there is no infeed hopper, but the interval between positions 1 and 3 is used for opening the jacket section to receive the inner sections. Thus the cam I I8 rises to a peak and thence drops to normal, the intermediate mechanism causing the trailing wall to swing bodily to the leading wall, closing the pocket, followed by return to open position, the auxiliary means; already described causing; the jacket to open in the pocket and; remain. so upfto the dischargeposition. Therebeyond the camv I I3 tapers away from its peak and may be discontinued or absent `therebeyond around to. a point beyond position ,i for repetitionof action. In each of the successive positions 3 an, inner section is fed from .above into the opened `iacket, six .such positions being shown. on Fig. 1v although only a smaller number thereof may need be used Afor the assembling ci the-sections of any particular newspaper. Each pocket beyondk vthe last position `3. cornes to position 4, which is the delivery position, wherein cam 22.0, andV not cam 2|,8, brings about, theoperations, thetrailingwall. 9! being iirsttil-ted from .itstinclined posture of posit-ion 3v to its tilted upright posture of position e, ythus ldumping .the complete assemblage, and the cam 212i) lthereupon restoring the wall from. its tilted to its original inclined position. As with the low cam H8 the high cam 226 is of openstructure, thetollower being spring-pressed, and in each case the follower rides .off the reverse incline of the cam ata point .beyond which the camV maybe terminated leaving the parts in their Vspring-*pressed stopped position. Each of the sixty pockets `goes through the described cycle in each complete turn of the rotor', delivering sixty complete products per rotation all of the pocket sections being under the control of the low and high cams H8 and 22d. The `delivery of the stuffed `newspapers from the successive pockets, traveling in rapid succession through the delivery position ci, may thus be caused by gravity directly downward to the receiving and transferring means therebelow, leading eventually to the .outfeeding conveyor or band I 2'I, travelingin this case leftward at an adjustable speed such as to cause the assemblages to be laid in overlapping relation as seen in Figs. 2;, 7 Vand 8.

The outfeeding vconveyor |21 preferably travels somewhat slower than the pocket travel speed while passing the delivery, so that the pockets can have no retarding effect upon the upper parts of the discharging products. Indeed the higher speed above ensures that each product will flop over advancingly as its lower part is slowed by its engagement with the slower moving compartments of the spider wheel. The vbottom closing of each 'pocket is timed to. await the complete -exit of each product therefrom, by the length and timing of the nxed high cam 22d. Itis sometimes useful to arrangethat after the openable `upper edge A2 :of each-product'l has been laid down to overlap uponthe preceding one, its closedlower edge A shall get deposited, not directly upon the belt conveyor, but upon a short shelf from which the nal deposit takes place, thev product sliding 01T the shelf onto the conveyor. Such a horizontal shelf is indicated as part of bracket 2F3 inFig. 7; and it may be slotted to accommodate the transverse movements of thev kicker 2TH)` as .each tenth product is kicked laterally out of line with the intervening products.

Several devices for manipulating the jacket section and its two halves, for the opening of the jacket and holding it thus to receive inner sections, have already been described as auxiliary to the primary or suction holding means provided for each pocket to hold the leading section of the jacket to the leading wall 90. The `details of the suction means may be .ascertained from .the disclosure in said prior patent, but the following may be-.here mentioned in connection with Fig. 1.7'. rIhe suctionholding. device 1.2.4 asa whole is 16 mounted upon a` block l2;6 which `in turn is. carried' on Aa bracket v|25 secured to the outside face of the leading wall 90.. The block is centrally open to accommodate the suction. nozzle or terminal [28, which `protrudes slightly through the suction hole 91 at, the inner face of the wall, at its triangular bent portion 9%5, The suction timing and -control meansr is. not shown, but may be analogous to that in said patent, operating through a. eXi-ble tube |32* to supply and relieve suction in `suitable timing to hold the jacket half to the leading wall until after all of thev inner sections have been received. The suction Adevice may contain interior mechanism providing a. certain, automatic. application of the suction by the bring-ing of. the :jacket into contact upon. .the mouth ofv the nozzle 1.28, for example, asin said patent shown.

The delivery mechanism, including transfer at position 4 of assemblages discharged from the successive pockets for orderly deposit .upon the outfeeding conveyor l2 l are. best shown. in Figs. 6, 7 and 16, with some reference .to Figs. 12, 13 and v18. The immediate receiving element, which may be designated as. a spider wheel 2.5.5, is a driven device, which is or" skeleton structure comprising several individual wheels 255; the spider wheel .being formed with a plurality of projecting vanes. or arms 2.56 which are disposed or bent in a manner to provide an equal number of recesses 257 adapted, in turn, toreceve the successive discharged. assemblages. With four such arms and recesses the spider wheel makes one rotation during the passage of four pockets above the wheel. The wheel is driven in time with the discharges from above, and its rotation causes each assemblage or product to lie over in the direction of outfeeding progress, thus to be received smoothly upon the conveyor, in overlapping relation however with the products already so deposited. The result of using this spider wheel is indicated in theperspective view of Fig. 8.

The spider Wheel 255 as la whole, and its three sections, are all mounted upon a horizontal shaft 259, `which may have its mid-portion flattened in square form for the attachment to the shaft of the spider wheel sections; or the spider wheel mayA have va single hub `to be mounted upon the shaft in a conventional way. The spider wheel shaft is shown inFigs. 13 and 16 as being mounted to turn in. a front or outer bearing 25E] .and a back or inner bearing 26|. For timing the shaft 259 to turn in harmony with the other operations of the machine it may be geared to be driven from the rotor 5i, as best seen in Figs. '7 and 1'6. The .shaft 25d carries a sprocket gear 262 on which. runs a chain 263 which also is engaged upon a smaller sprocket gear 2.6i mounted upon a countershaft 295, which carries also `a larger gear 26S which is shown in mesh with, so as to be driven from, the large lower ring gear 'H8 on the rotor 5i. lIhe countershaft 265 may turn in bearings 261, 4the inner one of which is shown mounted upon a bracket 268 upstanding from a lower` boX or block constituting part of the machine base 5t. The transfer shaft .259 is parallel to the radial pocket and directly below it, as are also the .curved recesses 251 defined by the skirts ofv the spider arms. The earn-tilting of the Ytrailing wall. opens widely the pocket bottom, letting the product C drop Vinto the recess 257 which is in the path of descent. The product. substantially reaches the level of shaft .2.59, while `the preceding andfollow ing skirts 2,56 preclude the iiopping over or loss of position of. the. product. When yeach `product 17 is overlaid upon the preceding one it smoothly takes its position while the supporting arm or skirt pulls away, completely releasing the product. The spider wheel is at a high level close to the `bottom level of each pocket and the outfeeding conveyor is close up to the lower level of the Wheel; so that the entire operation takes place smoothly and While all of these parts are in advancing motion, the pocket traveling on the rotor, the transfer wheel with its receiving compartments turning about a horizontal axis, and the outfeeding belt advancing in the same direction as that in which each product is slid out of its compartment on to the belt. The total arrangement is compact, so that the pocket travel with the `rotor .is conveniently low, as is desirable for maintaining observation and operation of ythe various steps and mechanisms.

A machine having no further mechanisms or operations than already described would be complete and operative, but would require in connection with the manual removal of the products at the far end of the outfeed conveyor, not only7 a lifting away but in due time a counting of the products to provide piles or batches of aA predetermined number for shipment. Auxiliary mechanism will next be described by which for example every tenth product is automatically counted off and displaced, thrust or kicked out of line, at or near the deposit point on the conveyor, by way of facilitating the counting and further handling.

rThe kicking mechanism comprises primarily a displacing member or kicker in the nature of a swinging dog or thrust bar 210, acting under control upon every tenth product for example to shift it out of line in the lateral tilting manner indicated in Fig. 8, wherein the products are normally overlaid in regular procession but periodicallir one is caused to stand away e. g. cornerwise. Referring rst to Figs. 6, '7 and 16, the displacing member or kicker 210 is mounted to swing on a pivot 21| supported at the lower end of a drop bracket 212 located well below the level whereat the products are deposited overlappingly upon the conveyor belt |2I; the kicker being near the radially inward side of the conveyor, which Fig. 16 shows to consist of three separate belts |2 so that when the kicker is swung through its operative motion, from the full line to the dotted line position in Fig. 16, its free end or horn swings outwardly, leftwardly in Fig. 16, away from the general center, and by this swing it engages the last deposited product or assemblage C, and with a movement lateral to the travel offsets the product to stand out noticeably from the general line of products. As indicated, the horn of the kicker preferably engages, not the middle part of the product edge, but its rear corner, so that the displacing motion may consist of a lateral tilting shift rather than a bodily lateral or longitudinal displacement.

The drop bracket 212 which gives support to the swingable kicker member is shown as mounted at the underside of a low radial angle iron 213, the radially inner end of which is supported by brackets indirectly from the base block 50, the outer or front end of which angle iron is clamped to one of the upright standards 30 of the general frame of the machine. It being desirable to locate the kicker controlling mechanism accessibly near the periphery of the machine there is shown a connecting means for causing the periodic os- .'cillating thrust of the kicker in the form of a long longitudinal link 215, the fittings and operation of which will be explained, this link having a pivotal connection 216 with the middle part of the kicker. f l

In addition to the 10W angle iron 213 on which several parts are mounted including the kicker bracket 212 and others to be mentioned, there are various fixed walls, brackets and other frame members designed and connected to give support to various movable parts of the kicker and control mechanisms to be described. Most ofthese xed parts have their mounting upon certain of the upright frame columns or standards 30 or similar columns upstanding from the base 50 for the purposes hereof. Thus in Figs. 6, 7, 13 and 16 there appears a general upright frame plate 218 clamped or bolted to two of the columns; and at the outer side of the general plate 218 is an extensive horizontal angle iron 219. Among other fixed parts is a pair of angle brackets 28|, whose base flanges are secured to the frame plate 218 and which are spaced apart to provide a bearing for a swinging lever 285, with a cross bolt or axle pin 282 serving as the fulcrum for this purpose.

The kicker or thrust bar 218, as stated, shifts transversely to the path of outfeed travel, engaging and displacing the last deposited product or newspaper, which thus becomes disaligned, and, due to the cornerwise thrust, becomes askew and thus noticeably subdivides the procession into batches.

The operating mechanisms beyond the end of link 215 include first of all, connected to the link by a pivot 284, a kicker actuator or depending lever 285, which has an interposed yoke 286 somewhat above the link end, and at its top an enlarged hub or lever head 281 that is tted between the bracket angles 28| and can swing at regular times about the crossaxle 282 to pull the link and thus operate the kicker; the lever head carrying part of the trip mechanism taking part in the action, as will be described. Fig. 16 shows the normal or idle link and lever positions, and in dotted lines their shifted positions as occupied momentarily after each tenth product has been deposited in the outfeed. As a preferred way to control and restore the normal positions, a compression spring 288 is placed between a socket hole in the fixed plate 218 and a socket recess in the lever head. When non-operative the spring returns the parts, while a stop-piece 289, near the low end of the kicker lever predetermines the normal position, with the kicker bar retracted to a position well inward of the path of the outfeeding assemblages. This is the normal position of kicker 210, shown in full lines in Fig. 16 as clearing the inner edge of the assemblage C; while Fig. 7 shows that the kicker tip is lower than the spider wheel and offset endwise in the direction of travel, so as to ac t on the trailing corner of the latest deposited product before the next one comes to rest thereupon.

The mechanisms for determining the kicking intervals, at which the otherwise regular deposit of. products on the out-feeding belt occur, include a trip or finger 300 mounted on the upper end or head of the kicker actuator lever 285, cooperating with a driven rotary cam or tripping element 29|, referred to also as a star member or cam owing to its having a plural number of similar tripping arms; and in addition to these a timed mechanism for rendering active or operative the otherwise passive or idle star member and trip member. These three sets of controlling and operating means are best shown in the aeeirevi front elevation of Fig. 6, looking toward the general axis, the top plan view of Fig. 13 and the side elevation looking in the direction of pocket travel in Fig. 16.

Describing first the star member 29|, which is driven from the rotor l or another general machine part in coordination with the kicking and tripping actions, this is shown with a central hub 292 fast on the radial shaft 259 and from which extend four `radial arms '293 each of `which has a tripping cam face 294, near the end of the arm and slanted to constitute a cam adapted to coact with the trip -nger 300. Being on the same driven shaft 259 with the four-'armed spider wheel '255, these mechanisms work in perfect coordination, with the deposit of `'a newspaper product in each quarter turn of the shaft, and 4the readiness vof the star cam to take part in the tripping action in any lpredeter-mined cycle,

such as revery tenth cycle of delivery; the shaft 259 being vgeared down, `as already described, in receiving its rotary motion from the lower ring gear 18 of the rotor.

Normally the trip member or finger `36% l'stands out ofthe path of the four cam faces of the star cam 29 i, e. g. at a point between these lfaces and the hub; but when the 4tripping occurs, in the manner to be described, the trip finger becomes shifted to la position in the path of the cams, -so that the next arriving cam can vengage and thrust down upon the finger Stil and thus cause the bodily swinging of the kicker lever 235, whose hub `or head carries the finger, the force thus exerted on the finger being vthus applied to swing outwardly the lever and thus,

through the link 215, deliver a single outward and return action to the kicker, by which the last deposited product is engaged at its corner and kicked, thrust or tilted laterally out of line for the purposes described. As the 4cam face which performs this action continues rotation it passes from lengagement with the finger and all parts return to normal.

The `trip member '30B comprises a movable or rockable finger mounted by its hub 31H upon the kicker lever head 231 to rock between vits normal idle position and its shifted position with which one of the cams 294, cooperates to displace the linger and thereby rock the lever. The lever head is open or forked at its inner side, providing a space within which `the hub 30| `of the trip finger is accommodated. For effecting `the `movements `of `the trip its vhub 39| is mounted upon a short upright rockshaft 302, to which the -vfinger is pinned and which has its Abearings in the forks of the lever head. This rockshaft has an upward extension beyond the upper fork, and upon this extension is secured a collar 303 'which may also be'the hub of a rockarm 304.

The rockarm 304 is an important element in the train of connections, and when it is rocked it can shift the trip finger to and then from its operative position, being that position in which the free projecting part of the trip finger comes into the path of the cam ends of the star cam arms 293. In Fig. 13 is shown in full lines the normal or idle position of the trip finger, while in dotted lines is shown the position to which it becomes shifted by the vrocking of the arm 304, the projecting portion of .the trip finger then being .below the .descending cam face 292 of the next .one of the rotary arms 293.. Thereby the star .member arm comes down -upon the trip finger, which at its upper side has .a cooperating incline or cam face. The result of these actions is that, `by the timed rocking and .depression of the trip finger, there is caused a bodily swinging movement of the actuator lever 285 and its head 281, so that, in opposition to the compressed spring 288, the lever is swung outwardly, pulling the long link 215 and thereby actuating the kicker 215i to displace the single product thus selectively determined under the timed -control yet to be described.

In order to hold the trip nger 39d normally in its retracted idle position a spring 335 is applied to the trip, as to the rockarm lStili, with the spring pulling in a direction to hold these parts in the Vfull line position of Fig. 13; `and with a stop 391 suitably determining this idle position, such as a part of the lever head 281 or one of the twin brackets 28E For tilting the trip finger, as through the swinging of the rockarm 3514, a mechanical connection or link 3%9 is employed, which lmay have a rod portion -3 IG and a cushioning helical spring portion 3H of good strength to transmit the motion and kwith normally closed convolutions; these two portions being in'tandem and the link 3%9 as a whole extending from the rocka-rm 304 to where the far end of the rod portion may have a hook or other coupling '3i 2 'to another mechanical part or swing arm 329 to be described.

As a practical means for transmitting timed actuation 'to these parts, 'for the periodic tripping and Akicking actions, an electromagnetic means is shown in the form of a solenoid 311i which is energized by a circuit v3i5, these parts being shown both in Figs. 6 'and 16. The motion transmitting solenoid may have a `conventional core 355 which shifts inwardly when the solenoid is energized. By a pivot 3|1 the outer end of the core is connected to the first lever arm 318 of va bellcrank lever which is fulcrumed at 3|9 and whose `second arm 32B is 'thus .adapted to be swung from and toward the trip rockarm 3M during each periodic Aoperation of energizing vand deenergizing the solenoid. This swinging bellcrank arm 32u 'is formed with a number vof coupling points or `holes 32i for adjustment purposes, to determinefthe effective length and throw of the arm, `a selected one of which holes is shown engaged by the coupling hook 3I2 of the link 30d, so that when the Abellcrank is swung from its normal .idle position shown it pulls :upon the link and thus swings vthe rockarrn 36e and tilts the trip S from its idle toits active position. The early lcutting off `of 'the current and release of the solenoid causes these parts to return to their normal or idle condition due to the stress constantly applied bythe retracting spring 305.

The timed lproduct-counting operations and the energizing of the solenoid 3M for the described purposes may be eected from a convenient driven Vmember of the machine, as for example .from the upper ring gear 12 of the rotor 5I. Thus, on the small-scale showing of Fig. v1 the gear drives a bevel pinion 324 carried on a shaft 325, which shows also in the largerscale Fig. 16. 'See also Figs. 14 vand 15. The shaft 325 operates through a speed reducer consisting of a Aworin 326 driving a worm wheel 321, the shaft 328 of which carries also aswitch-controlling wheel or disk 329 shown in the form of a sprocket or chain wheel.

The parts here under description may be considered as constituting a counting mechanism, performing the function of counting the stuffing each kicking action, and communicating this con- 21 trol through the solenoid and parts beyond for this purpose. The slow turning controller wheel 329 might carry directly and cause progress of an outstanding pin or nger 33| serving as a periodically acting actuator for a suitable switch 33.3, such as a time limit switch, to be de` scribed, so that, for example, the controller pin 33| will-make one complete revolution or cycle for every ten products, thereby to operate the switch and so energize the solenoid 3|4 after each ten deliveries to cause the tripping and kicking actions already described. The wheel or disk 329 can also be provided with means for directly or indirectly adjusting peripherally thereon an operating pin, or a plurality thereof, to positions to meet any particular demand as to segregating the newspaper productsA into batches. Instead of fitting a controller pin or pins directly upon the wheel 329, however, an indirect and more flexible arrangement, as shown, is to apply an relongated sprocket chain or similar endless ilexible control element 330 to the wheel 329, which is toothed for the purpose, the chain hanging loosely thereon to any desired length determined by the number of links therein, the chain being interchangeable. The chain may carry an operating pin or finger 33|, or there may be two or more of such pins, spaced evenly around the length of the chain and each one adjustably attachable thereon. Brackets 332 give support to the chain counting mechanism, with an extension bracket for the switch 333.

The actuating operation of the counting mechanism chain pin may consist substantially in its thrusting of the, operating part or button 334 of the switch, which naturally may be of any well known or conventional type. The time switch 333 is shown conventionally, without details, but with the circuit conductors 3|5 issuing from it and with an outstanding switch pin or button n 334. The switch is fed by line wires 335v and is of a type wherein the circuit is normally open, but is adapted to be closed by the thrusting inwardly, against spring resistance, of the switch pin 334; this action being performed by the counting pin 33| as the slowly traveling chain brings the chain pin opposite to the switch pin, thu's thrusting or camming the switch pin inwardly, causing a reversal of switch conditions from open to closed circuit, which may be by snap action; the continued travel of the counting pin beyond the switch pin thereupon releas ing the latter, while inner spring means of the switch comes into action to restore outwardly the switch pin and thus break the circuit leading to the solenoid. Time switches of such characteristics are available on the market, of several makes.

To review the results of the arrangements described, the switch controlling pin 33|, when set -for a cycle of ten products, for example, as driven yfrom the ring gear 12, at the designated moment `closes and then opens the switch 333 and circuit 3|5, thus briefly energizing the solenoid 3 I4, and acting through connections 3|8, 320, 30S and Y394 to rock the trip nger 300 into the descending path of the next arm of the star cam 29|, which thereupon depresses the trip and thus swings frontwardly the kicker lever 285, to cause the kicker to displace laterally the tenth product, according to the object of these arrangements.

Reverting to the deposit of the successive products from the several compartments 251 of the spider wheel 255, having in this case four arms or recurved vanesdening the recesses or com-- 22` partments, it is sometimes desirable to supplement the arrangement by providing a means, such as shown in Figs. 6 and 16 for insuring the depositing action by ejecting or stripping each product from its compartment. For this purpose there is shown a fixed stripping member or blade 340 attached to and upstanding from the fixed bracket 213. There should be a plurality of the fixed stripping blades or plates near or between the sections 255 of the spider wheel, two of the strippers being shown spaced well apart with the spider wheel sections between them. The upper part of each stripper is in the nature of a wedging plate, which preferably overlies and rests against a cylindrical part of the spider Wheel shaft 259, so that as the shaft and spider sections rotate, with avproduct in each compartment, the upper end of the stripper acts directly upon the approaching backfold A of the stuffed product whereby the stripper enters between the product and the shaft, its edge riding the shaft, and thus wedges the product outwardly in any case where there exists some resistance to the gravity deposit or outsliding of the product from the compartment. In structure, each stripper 340 may have a lower extension or body 34| by which it is mounted upon the frame bracket 213, a suitable mounting being the providing of upper and lower stems projecting horizontally from the stripper body and passing through holes in the bracket, thus permitting sliding adjustment of the stripper relatively to the spider wheel shaft. As thus set in its operative position the stripper may be secured upon the bracket by upper and lower attaching screws 343; and the mounting may be completed by the provision of a collar 344 fast upon the lower stem 342, held by a pin or screw.

There has thus been described a stuing machine embodying the principles and attaining the objects and advantages of the present invention; butv since many matters of operation, combination, construction and detail may be variously modified without departing from the underlying principles, it is not intended to limit the claims to such matters except to the extent set forth in the appended claims.

What is claimed is:

l. Machine for stuffing newspapers or like products of the kind having an advancing carriage or driven rotor supporting an endless series of substantially upright and normally top-open V-shape stufng pockets arranged radially to travel facewise around a horizontal orbit through successive stations and at the jacket station to receive from above and carry along rst a jacket section and then at receiving stations therebeyond inner sections of newspaper within .the jacket; means to open into V-shape the received jacket section in each pocket in advance of receiving inner sections stuffedthereinto and to so retain the jacket until the stuiling is completed; the leading and trailing opposite walls of each pocket being relatively shiftable or swingable normally to maintain the pocket top-open and bottom-shut, during reception of sections and therebeyond at the delivery station to open the pocket bottom for dumping the stuffed product or assemblage; and an underneath outfeeding conveyor web operable to receive the successive dumped products and convey them away in a di rection diverging from the orbital path of pocket travel; and, in combination therewith, an operable transfer mechanism comprising a recessed spider wheel located below the delivery station and intermediate between the pocket series above and the outfeeding conveyor below and adapted to receive in its recesses, the successive stuied products and to support and manipulate them for the methodical smooth lowering, laying over and depositing thereof in orderly overlapping relation upon the outfeeding conveyor and said spider wheel being formed with several outstanding arms provid-ing flared compartments for re ceiving and depositing the successive products, with a horizontal spider-carrying shaft and means for driving the shaft and spider in coordination with the travel and operation of the series of pockets.

2. A newspaper stuffingmachine having an orbitaliy advancing carriage supporting an endless series of normally top-open V-shape radial stuiling pockets arranged to travel through successive stations and at the jacket station to receive and carry along first a jacket section and therebeyond inner sections within the jacket; means to open into V-shape each received jacket section in advance of receiving inner sections stuffed the-reinto andv to retain thus the jacket until the stung is completed; the leading and trailing opposite walls of each pocket bei-ng relatively shiftable normally to maintain the pocket top-open and bottom-shut during reception of sections and therebeyond at the delivery station to open the pocket bottom for dumping the stuffed assemblage; and an underneath outfeeding conveyor adapted to receive the successive dumped products and convey them away divergingly from the path of pocket travel; and in combination therewith a recessed spider wheel below the delivery station andintermediate between the pocket series above and the outfeeding conveyor below, the same adapted to receive in its recesses the successive stuffed products and to support and manipulate them for the methodical smooth lowering, laying over and depositing thereof in orderly overlapping fashion upon the outieeding conveyor; and said spider wheel being formed with several outstanding arms providing iiared compartments for receiving and depositing the successive products, with a horizontal spidercarrying shaft and means for driving the shaft and spider in coordination with the. travel. and operation of the series oi pockets.

3. A stuffing machine as in claim 2 and wherel in the spider arms are in sets, back-curved, and each set. being adapted to tilt each product over and down iiatwise for deposit overlapping previous deposits while sliding from such arm set advancingly in the direction oi` pocket and conveyor travel.

4. A stuiiing machine as in claim 2 and wherein is a stripping means in the form of a fixed ejector blade or wedge riding upon the spider shaft and by wedging action aiding in the iinal descent and deposit of each product from its com,- partment to the web.

5. Machine for stuiiing newspapers or the like of the kind having an advancing carriage in the form of driven rotor supporting an endless series of substantially upright and normally top-open V-shape stuing pockets arranged radially to travel facewise around a horizontal orbit` through successive stations and at the jacket station each to receive from above and carry along rst a jacket section and then at receiving stations therebeyond inner sections of newspaper within the jacket; means to open into V-shape the received jacket section in each pocket in advance of receiving inner sections stuffed thereinto and to so retain the jacket until the stuing is completed; the leading and trailing opposite. walls of each pocket being relatively shiftable or swingable normally toy maintain thev pocket topf-open and bottom-shut during reception of sections and therebeyond at the delivery station to open the pocket bottom for dumping the stuffed product or assemblage; and an underneath outfeeding conveyor web operable to receive the successive dumped productsl and convey them away in a direction diverging from the orbital path of pocket travel; said machine being characterized in that` each traveling V-pocket has a leading wall and an opposite trailing wall which latter is mounted on an 'opstanding lever-frame fitted to swing bodily with the` trailing wall about a low radial. axis located at. the V-pointA of the pocket, and the trailing wall being fitted alsoY to the frame to. tilt bodily about a radial mid-axis on the frame, a low fixed cam with a cam connection to cause the timed swing of the frame and trailing wall, and a separate high fixed cam with its cam surface higher than said midaxis and with a cam connection to cause the. tilt oi' the trailing wall, including a swing arm at said mid-axis with a follower engageable with said surface, these lever-swing and wall-tilt movements being caused respectively by said low and high cams by reason of the travel of each pocket.; said cams being arranged and timed for the low cam to cause the top-closing and then opening of each pocketafter receiving a jacket section, and later for they high cam to cause the bottom-opening. and then closing of the pocket by the. low-cam-tilting of said trailing wall, thereby to dump the. product after the pocket has received the inner sections.

6.. Machine for stufiing newspapers, such machine having a rotatively advancing carriage supporting an endless series of upstanding, normally top-open, radially disposed V-shape stuiting pockets arranged to travel through successive stations and at the jacket station each to receive aV jacketk section and therebeyond inner sections at other stations; means to open into V-shape the. received jacket section in each pocket in advanceA of receiving inner sections thereinto and to retain thus the. jacket until the stufng is. completed; the leading and trailing walls of each pocket being relatively swingable normally to maintain the pocket top-open and bottom-shut during reception of sections, and therebeyond at the. delivery station to open the pocket bottom for dumping the stuffed product; and an underneath outfecding conveyor operable to receive and carry away the successive stuffed products; said machine being characterized in that each V-pocket has a leading wall and a trailing wall which latter is mounted on an upstanding frame. tted to swing bodily with the trailing wall about a low radial axis located at or near the V-point of the pocket, and the trailing Wall being ntted also to the frame to tilt bodily about a mid-axis on the frame, a low fixed cam with a cam connection to cause the timed swing of the frameV and trailing Wall, and a separate high fixed cam with a cam connection to cause the tilt of the trailing wall, these lever-swing and wall-tilt movements being caused` respectively by said` low and high cams by reason of thetravel of each pocket; said cams being arranged and timed for the low cam to cause the top-closing and then opening of. each pocket after receiving a jacket section, andA later for the high cam to causev the bottom-opening and then closing of the pocket by the low cam- 

